Your search keyword '"Wei, Yuqi"' showing total 3 results

1. Effect of elasticity on the induced charge electro-osmotic mixing of viscoelastic fluids in a micromixer with a conductive cylinder.

Author

Wei, Yuqi, Xu, Jun, Li, Jie, Yu, Weicheng, and Li, Chi

Subjects

*VISCOELASTIC materials, *NEWTONIAN fluids, *ELASTICITY, *PROPERTIES of fluids, *ELECTRO-osmosis, *MICROCHANNEL flow, *ELECTROLYTE solutions

Abstract

Mixing of reagents in microfluidics is critical, and currently, the focus is on Newtonian fluids, but these reagents are often viscoelastic fluids. In this study, a micromixer containing a conductive cylinder is proposed based on the principle of induced charge electro-osmosis (ICEO). The Oldroyd-B constitutive model was chosen to characterize the flow properties of viscoelastic fluids, and the Poisson–Boltzmann model was used to describe the ion distribution in the electrolyte. The impact of the elasticity number (El) of viscoelastic fluids on the mixing efficiency, velocity, and vortex in the micromixer was studied. The results show that the mixing efficiency is only 55.41% when El = 0 (Newtonian fluid), and the mixing efficiency reaches 99.08% when El = 50. As El increases from 0 to 50, the cross-sectional average velocity at 50 μm from the micromixer exit decreases from 160 to 26.1 μm/s. Furthermore, the vortices around the conductive plate generated by the ICEO phenomenon begin to fluctuate at El = 7. [ABSTRACT FROM AUTHOR]

Published

2024

2. Induced charge electro-osmotic mixing performance of viscoelastic fluids in microchannels with an electrically conductive plate.

Author

Wei, Yuqi, Chen, Yi, Xu, Jun, and Li, Jie

Subjects

*VISCOELASTIC materials, *FINITE volume method, *MICROCHANNEL flow, *ELECTRIC conductivity, *CHEMICAL engineering, *IRON & steel plates, *GREEN business

Abstract

Micromixers have important applications in lab-on-a-chip, biomanufacturing, and chemical engineering. In this study, a micromixer with a conductive barrier plate based on the induced charge electro-osmosis is proposed. The Oldroyd-B constitutive model was chosen to characterize the flow characteristics of viscoelastic fluids, and the Poisson–Boltzmann model was used to characterize the electrokinetic properties. The effects of the installation of the conductive plate, the concentration of the polymer, and the shape of the conductive plate on the mixing were studied based on the finite volume method. The mixing efficiency of the viscoelastic fluids is 78.3% when a non-conductive plate is placed in the micromixer. However, placing a conductive plate increases the mixing efficiency to 89.8%. As the polymer concentration increases, the mixing efficiency increases, which is attributed to the elastic instability. As the curvature of the conductive plate increases from 0° to 360°, the mixing efficiency of the Newtonian fluid increases by 2.82%, while that of the polyacrylamide solutions at concentrations of 100 and 250 ppm increases by 5.31% and 1.97%, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

3. Mixing performance of the induced charge electro-osmosis micromixer with conductive chamber edges for viscoelastic fluid.

Author

Chen, Yi, Lv, Zhuoyao, Wei, Yuqi, and Li, Jie

Subjects

VISCOELASTIC materials, ELECTRO-osmosis, MICROCHANNEL flow, ELECTRIC fields, POLYACRYLAMIDE

Abstract

Enhancing the micro-channel flow mixing is always a difficult problem. In this study, a micromixer based on induced charge electro-osmosis is proposed. A T-shaped micromixer, which has a chamber with conductive surfaces in the channel, is chosen. Due to the electro-osmotic effect of the induced charge, the induced potential is generated on the conductive surface. The Oldroyd-B constitutive model is chosen to characterize the flow characteristics of polyacrylamide solution, and an open-source solver named rheoTool based on the finite-volume method is used. The effect of the chamber shape, the chamber size, the conductive edge numbers in the chamber, and the applied electric intensity on the mixing efficiency are investigated. The results show that the micromixer with conductive edges in the chamber has better mixing effect because of the vortices. At the same time, compared with other shapes, the micromixer with diamond chamber has the best mixing effect, and the mixing efficiency reaches 79.51%. In addition, the mixing efficiency of one conductive edge in the diamond chamber is 4.39% higher than that of the two conductive edges chamber. It is found that increasing the chamber size will improve the mixing efficiency, and the mixing efficiency increased by 12.76% with the increase in chamber size. On the other hand, when increasing the electric field intensity from 100 to 200 V/cm, the mixing efficiency will decrease. [ABSTRACT FROM AUTHOR]

Published

2022